Impact Prize winner Anoop Tripathi on his career in Plant Science and how his work is tackling climate change and food security
The Impact Prize amplifies my visibility in plant sciences and empowers me to drive forward impactful solutions in sustainable agriculture, food security, and climate resilience; three areas critical to addressing some of the most pressing challenges of our time.
Anoop Tripathi
Anoop Tripathi’s research on cross-hybridisation of plants aims to develop climate-resilient crops that could ensure food security for millions of people, especially in the regions that are most affected by climate change.
Anoop [2022] is one of a very few people in the world who have experience of using a newly developed technique of cereal grafting and hybridisation which overturns the long-standing consensus that monocot plants such as grass and grass-like flowering plants cannot graft. Hybridisation is not only scientifically challenging but also requires an interdisciplinary approach that blends plant biology, genetics and agricultural science.
Anoop was the lab technician in the team which first developed the new technique and is the only member to remain in Cambridge. For his PhD he is taking that knowledge forward in research which aims to improve the photosynthetic properties of rice plants, making them able to grow with less water. He says the research has the potential to increase rice production by 50%, leading to greater food security for the world.
One of the most significant impacts of Anoop’s research is the shift in perception his research has prompted within the scientific community and beyond. For decades, it was widely accepted that monocot plants could not be grafted due to their unique vascular structures. Anoop’s work directly challenges this and has been published in high-impact journals like Nature. By including farmers from India as citizen scientists, Anoop has also sought to democratise the research process, ensuring that the perspectives of those directly impacted by agricultural challenges are integrated into the scientific solutions.
Early years
Anoop’s desire to help others, particularly farmers, and his persistence were honed from an early age. Born in Ayodhya in India in 1987, his father was a banker who worked in a regional bank in Uttar Pradesh which meant he had to transfer to another part of the state every five to six years. At first the family of nine children, including Anoop’s cousins, moved around with him, but later they stayed in one place and his father commuted to work.
Anoop’s mother was a big inspiration. A self-made person, she always told him that he should not listen to any negative voices about his abilities. She nursed him through the various falls and skin problems he had as a young boy and got him to take his medicine by playing games to distract him. His grandfather also reinforced the message of not giving up and learning from failure. Those messages were to prove important in shaping Anoop’s view of life and his determination not to feel disheartened by setbacks.
Anoop was the youngest child and describes himself as an introvert and loner who was mature for his age, someone who was curious to try out new things, such as being on the football team. He was very interested in the world around him and in the summer would go to his maternal grandparents where his grandfather would teach him about hands-on practices in agriculture, such as how to weed and how to do litmus tests on soil quality. He developed a deep respect for farmers. “My grandfather taught me that if you see any problem you need to go to the root of it to solve it more efficiently than if you start from the top and don’t see the whole picture,” says Anoop.
Botany
Anoop’s family was very focused on science, and he was good at maths and biology. He could see, 
growing up, that the healthcare system in his area was not good so he decided he wanted to work in health policy. To do so he needed to understand how the system worked so he applied to medical school and had to sit a national exam. He couldn’t get into the college he wanted after two years of trying, which involved reading widely on the subject. So, Anoop opted instead for a BSc, initially in Zoology, Botany and Chemistry at the University of Lucknow, later focusing on just Botany and Chemistry.
One of his first classes in Botany involved making a section in a dicot plant. His professor showed the other students what he had managed to do. The experience was a turning point for Anoop and cemented his idea that he could be a botanist. He spent his undergraduate years learning how to recognise the different plants in the university grounds and over the summer he would go back home and talk to local farmers about what he had learnt about, for instance, pesticides. “Most of the farmers were illiterate so were unable to follow written instructions,” he says. “No-one was trying to inform them in ways they could understand. Everything I was learning I used to educate them.”
Anoop finished his degree in 2008 and was set on becoming a civil servant so he could improve people’s lives. He decided, however, that he needed to do a master’s in Biochemistry in order to have a better understanding of plants and the relationship between plants and animals.
Post-graduation decisions
After graduating in 2010, Anoop moved to Delhi and started preparing for the national civil services exam. He spent the next five years trying to get in, determined not to give up. During that time he visited the slums of Delhi and talked to children who were excluded from school and their parents, trying to help them get an education. By 2015, Anoop’s father was preparing to retire and Anoop felt he needed to move his life on.
Having kept his scientific skills up to date, he became a senior research fellow at the National Bureau of Plant Genetic Resources in New Delhi in 2015 and was working on a project focused on understanding the evolution of photosynthesis. It involved comparing C3 plants – different rice varieties – with C4 plants like millet in a bid to make more efficient rice plants. The project opened up new doors for Anoop and connected him with what researchers outside India were doing, including a project at the University of Cambridge which was funded by the Bill & Melinda Gates Foundation. Through this he came across the work Gates Cambridge Scholar Greg Reeves was doing on monocot grafting.
Around this time Anoop suffered a series of family bereavements. His grandparents died and a nephew who he was very close to drowned in a river aged 12. Anoop used to spend the summers with his nephew while his sister worked and the two had a very close relationship. His death was to prove a breaking point for Anoop, and he started to look at moving abroad. His girlfriend was doing postdoctoral research in the Department of Plant Sciences at Cambridge, and he decided to move there.
At first Anoop was very introverted, but after a few months his confidence grew. He applied for jobs at the university and finally got one working with Greg Reeves on monocots. He started work as a lab technician in January 2020, having to reschedule everything because of Covid. During one of the update meetings with Ceres Agri-Tech and Cambridge Enterprise, he was asked what he thought about the research. “It was a profound moment that people might be interested in what a technician thought,” he says. He had never thought about doing a PhD before, but, after he was credited as second lead author on a paper Reeves wrote about his research and because of the insightful and motivational nature of the research he was doing, the idea started to take seed.
PhD research
Anoop says that when he applied to do a PhD, he began thinking about his career to date and how he could go full circle and help rice farmers in his country. India is the second largest grower of rice in the world. Anoop knows first-hand how rice fields work and about all the irrigation problems as well as the impact of climate change. He was keen to design a project that could introduce some of the qualities of other crops into rice and believes that, by using somatic hybridisation, the photosynthetic efficiency of millet plants can be transferred to rice which will mean rice can grow with less water. Anoop is keen to ensure that such grafting will benefit farmers in places like India and says that requires understanding the challenges they face with post-harvest processes.
Eventually Anoop wants to return to India and to work with farmers to teach them how they can get better results and ensure his research has maximum impact in the real world. “If you are sitting at the top table, you don’t know all that is going on underneath,” he says.
On winning the Gates Cambridge Impact Prize for his research, Anoop said: “The Prize is a deeply humbling recognition for me. It amplifies my visibility in plant sciences and empowers me to drive forward impactful solutions in sustainable agriculture, food security, and climate resilience; three areas critical to addressing some of the most pressing challenges of our time. This honour is not simply a celebration of my past achievements, but a profound reminder of my responsibility and potential to transform the world around me. It fuels my passion for innovation and strengthens my commitment to tackling global challenges with scientific excellence. Equally, it inspires me to be a role model, empowering others to create meaningful impact through their research journey and aspirations.”
